Automotive Communication Protocol Market

Global Automotive Communication Protocol Market, Size, Share & Trends Analysis Report, By Type (LIN, CAN, Ethernet, MOST, and FlexRay), By Application (Passenger Cars and Commercial Vehicles), Forecast (2021-2027)
    Update Available - Forecast 2024-2030   

Published: Jul 2023 | Report Code: OMR2025084 | Category : Automotive and Transportation | Delivery Format: /

The global automotive communication protocol market is expected to grow at a significant CAGR during the forecast period (2021-2027).  The growth of the automotive communication protocols market is led by key trends such as the rising electrification of automobiles. Automotive communication protocols employ a serial data bus or wireless technology to send data between different electronic modules in a car. For instance, with specific I/O modules installed in real-time target machines, Speedgoat supports a wide range of protocols used in the automotive sector. Simulink driver blocks are included in all solutions to provide a smooth workflow. Users can send and receive messages in real-time using a Speedgoat real-time target machine equipped with I/O modules for communication protocols. Support for common automotive communication protocols such as CAN, CAN FD, LIN, FlexRay, and Automotive Ethernet is required for rapid control prototyping (RCP) and hardware-in-the-loop (HIL) testing. Speedgoat's I/O modules provide a real-time connection with other vehicle bus nodes (sensors, actors, and other electronic control units (ECUs)) in the case of RCP. They allow for the simulation of parts of one or more vehicle buses to test and evaluate the behavior of a device in real-time using real peripherals, without having physical access to all nodes in the vehicle network. 

In addition to shortening development periods, issues such as busload, which is critical for meeting performance requirements, can be taken into account.  Speedgoat real-time systems, which are equipped with I/O modules capable of simulating vehicle buses in real-time, connect seamlessly with MATLAB and Simulink products and provide a simple way to simulate rest buses. Users can easily model the behavior of bus nodes that need to be emulated in Simulink. Users can simulate complicated and dynamic behavior using elements such as trigger mechanisms and functionality to design sequences of stimuli, transfer communications between different vehicle buses (known as gateways), and add hand-written code. Furthermore, the Speedgoat and Simulink Real-Time solution allow users to log and view bus traffic statistics as well as tune parameters in real-time from within MATLAB and Simulink.

Market Coverage

  • The market number available for – 2020-2027
  • Base year- 2020
  • Forecast period- 2021-2027
  • Segment Covered- 

o By Type 

o By Application 

  • Competitive Landscape: Robert Bosch GmbH, NXP Semiconductors NV, Infineon Technologies AG, and Texas Instruments, among others.

Key questions addressed by the report

  • What is the market growth rate?
  • Which segment and region dominates the market in base year?
  • Which segment and region will project fastest growth in the market?
  • How COVID-19 impacted the market?

o Recovery Timeline

o Deviation from pre-COVID forecast

o Most affected region and segment

  • Who is the leader in the market?
  • How players are addressing challenges to sustain growth?
  • Where is the investment opportunity?

Global Automotive Communication Protocol Market Report Segmentation

By Type

o LIN

o CAN

o Ethernet

o MOST

o FlexRay

By Application  

Passenger Cars 

Commercial Vehicles 

Global Automotive Communication Protocol Market by Region

North America

  • United States
  • Canada

Europe

  • UK
  • Germany
  • Italy
  • Spain
  • France
  • Rest of Europe 

Asia-Pacific

  • China
  • India
  • Japan
  • South Korea
  • Rest of Asia-Pacific 

Rest of the World